Part of the Local Ecosystems Module Biology in Focus,
Preliminary Course Unit: A Local Ecosystem Topic 4:
Populations
Slide 2
DOT Point examine trends in population estimates for some plant
and animal species within an ecosystem outline factors that affect
numbers in predator and prey populations in the area studied
Slide 3
Population Trends When studying a tidal estuary you are most
likely to look at the abundance of mangrove species along a
transect line from the sea to inland. If we graphed the results we
would see something like that shown here. asd
Slide 4
Population Trends Mangrove species A is highest in abundance
inland, species C is highest closest to the sea, and species B is
most abundant in between A and C. Mangrove species C being most
abundant closest to the sea appears to be the most tolerant of
saline conditions, followed by species B, and then the least
tolerant of saline conditions is species A. asd
Slide 5
Population Trends Trends in population estimates can be seen
easily when abundance values have been graphed. Examining trends
can lead to inferences about the species and what abiotic or biotic
characteristics they are most suited to. www.firstpr.com.au
Slide 6
Plant Population Trends The figure here illustrates the
abundance of different eucalyptus species at different altitudes in
southeast New South Wales. Although the species tend to overlap as
altitude increases, each different eucalypt species appears to be
more abundant in, and therefore more suited to, a specific altitude
range. asd
Slide 7
Plant Population Trends Eucalyptus pauciflora numbers dominate
the higher altitudes, while Eucalyptus longifolia, even though it
has a smaller abundance, still dominates the lowest altitude
ranges. Eucalyptus radiata appears to be suited to most altitudes;
however, it is most abundant in the middle altitude range.
www.nationalparks.nsw.gov.au
Slide 8
Animal Population Trends The abundance of two grain beetle
species (Calandra and Rhizopertha) show different trends over the
period of 180 weeks. Although both species rapidly increase over
the first 20 weeks, and drop quickly over the second 20 weeks,
Rhizopertha continues to drop to a certain abundance level and
remains stable over the remaining time period. asd
Slide 9
Animal Population Trends Calandra, however, goes through a
series of fluctuations then drops a little during weeks 80 to 140,
but then increases again, close to its highest-reached abundance
level. This graph infers that Calandra appears to survive better
than Rhizopertha when in competition with each other in this
environment. asd
Slide 10
Animal Population Trends Although we cannot predict what these
two species were in competition for (e.g. food, space), we can
assume that one species dominates the other in this particular
situation through higher species abundance. This, of course, does
not mean that the two species cannot successfully exist together in
the same environment. www.kerbtier.de
Slide 11
Animal Population Trends This graph illustrates the effect of
increasing the food supply for a population of small marsupial
carnivores, Antechinus stuartii, over 12 months. Supplementary food
was provided to two groups of Antechinus stuartii; however, the
food supply was discontinued in one group along the way.
Slide 12
Animal Population Trends Looking at the graph, all groups
rapidly increase in numbers up to March 1981 and then stabilise for
a few months. Each group reaches a peak in August 1981 before
rapidly declining in numbers to a point similar to 1980 figures in
November 1981.
Slide 13
Animal Population Trends The control group (not supplemented
with any food) have not reached as high numbers as the supplemented
groups. When food was discontinued for one group a dramatic drop
occurred in numbers, but it seemed to recover quickly and increase
and return to the same pattern as the other groups.
Slide 14
Animal Population Trends Food appears to play an important part
in the abundance of Antechinus stuartii and indicates that the
abundance of the populations studied was limited by food supply.
Otherwise, we would not have seen any increase in species numbers
for those supplemented with food. dl.id.au
Slide 15
Animal Population Trends Knowledge of the response of a species
to different environmental factors can be used to make predictions
about the potential distribution and abundance of species. You will
be using your ability to examine trends in population estimates
when analysing your own population estimate graphs collected on
your field trip to Minnamurra River later in this term.
www.tasmaniandevilpark.com
Slide 16
Predator and Prey Populations There are two types of
interactions between organisms: Detrimental: when one or more
organisms are harmed or disadvantaged from the relationship.
Beneficial: when one or more organisms benefit from the
relationship. One example of a detrimental interaction is the
predator prey relationship. asd
Slide 17
Predator and Prey Populations A predatorprey relationship is a
feeding relationship where the predator (consumer) obtains its food
by killing an animal (prey), for example spiders eating flies or
eagles eating bush rats. Not only are land animals predators, some
plants and marine organisms also play this role.
theboysandeve.wordpress.com
Slide 18
Predator and Prey Populations Providing the prey species
reproduces as fast as it is predated upon its population will stay
at a constant size. For example, if the rabbits in a grassland
ecosystem reproduce faster than the foxes that predate them then
the rabbit population will increase.
www.nurturingheartsbirthservices.com -
Slide 19
Predator and Prey Populations In natural communities, the
abundance of a predator and its prey can fluctuate through time,
with the predator numbers copying those of the prey. When there are
large numbers of prey available, the predator population increases
in size. As prey are consumed, their numbers decline, leading to a
shortage of food for the predators, whose numbers also
decline.
Slide 20
Predator and Prey Populations There are a number of different
factors that may affect the numbers of predator and prey
populations: number of predators competing for same prey
availability of preys food birth rate (depending on the age of
reproductive maturity and the number of reproductive episodes per
lifetime) death rate (increased by exposure to disease)
Slide 21
Predator and Prey Populations Factors that may affect the
numbers of predator and prey populations continued: number of males
and females size of ecosystem for supporting the predator and prey
numbers movement between ecosystems number of shelter sites
available.
Slide 22
Predator and Prey Populations Factors relevant to our
Minnamurra River study may not include all of these. For example,
in a mangrove ecosystem you may find that the factors affecting
numbers in predator and prey populations are directly related to
human impact. We can use these examples as a reference when we
conduct the field study and look for possible factors affecting the
numbers of predator and prey populations.
Slide 23
Activity/Homework -Students to complete DOT Point 2.2.3